Instruction Manual for SILVERSTONE models including: SST-GM1300C-PF, 1300C Gemini Platinum Module, Gemini Platinum Module, Platinum Module, Module
Gemini 1300C Platinum Gemini Series Cybenetics Platinum 1300W 1300W 2U CRPS Redundant Power Supply 1300W 1300W 24-hour continuous performance,reliably operating at 50°C
Gemini Series
Gemini 1300C Platinum
Cybenetics Platinum 1300W+1300W 2U CRPS Redundant Power Supply
1300W + 1300W 24-hour continuous performance,reliably operating at 50°C with fully sustained power output.
2U CRPS form factor: 82mm (W) x 102mm (H) x 239mm (D) Cybenetics Platinum certification Active PFC (full range)
All Japanese electrolytic capacitors Hot-swappable design
Convenient pull-out handle bars Support PMBus 1.2
SPECIFICATION
SilverStone Gemini Series
Gemini 1300C Platinum SST-GM1300C-PF
1+1 2U CRPS Redundant Switching Power Supply Cybenetics Platinum efficiency certified.
1.General Description
1.1 Function briefly
This specification describes the performance characteristics of the 1300W AC-DC redundant power supply. The power supply is capable of operating as a single power supply or in 1+1 parallel hot-swappable operation, and achieves current sharing in a 1+1 redundant configuration.
Total output
+12V
1300W
80.5A90-170Vac 105.3A170-264Vac
Output
+5V
+3.3V
25.0A
25.0A
-12V 0.5A
+5Vsb 3.0A
±1. Maximum combined power on +3.3V and +5V shall not exceed 200W. ±2. Maximum combined power for all output shall not exceed 1300W.
01
2.Input Characteristic
2.1.1 AC input requirements
item
measure Minimum
Input Voltage
Vac
90
Nom Input Voltage
Vac
100
Vin Frequency
Hz
47
Nom Vin Frequency
Vdc
180
Nominal DC input Vdc
voltage range
Maximum input current A
/
Input surge current
A
/
Nominal 115/230 115/230
50/60
240 /
/
Maximum 264 240 63 310
note
14 @90Vac 100% load
230Vac/50Hz input
45
full loadcold start
25
Power factor
0.99
100% load,230Vac/50Hz &115Vac/60Hz
02
Output Characteristic
2.2.1 AC output requirements
Nomin
Item
Unit MIN
MAX
al
Note
V 11.4 12.0 12.6 +12V
V 4.75 5.0 5.25 +5V
output voltage V 3.14 3.3 3.47 +3.3V
V -10.8 -12.0 -13.2 -12V
V 4.75 5.0 5.25 +5Vsb
A 1.5 A 1.5
80.5 90-170Vac 105.3 170-264Vac
+12Voutput
A 0.5 Output current
A 0.8
25 +5V 25 +3.3V
A
0
0.5 -12V
Combine
A 0.1 W
3 +5Vsb 200 +3.3V+5V
Hold up time ms 12
+12V&70% load
mV
120 +12V
mV
60 +5.00V
ripple noise mV
50 +3.3V
mV
120 -12V
mV V 10.8
Dynamic response
Switching machine
V 4.5
V 2.97
V 4.5 % % %
50 +5Vsb
+12V output The dynamic load
13.2 range is not greater than 60%
Minimum load 1A
5.5
+5V outputThe dynamic load range 0.25 is not greater than 30%
3.63
+3.3V output The dynamic load A/us range is not greater than 30%
5.5
+5Vsb output The dynamic load range is not greater than 25%
10 +12.00V output
10 +5.00V output
10 +3.3V output
overshoot % %
10 -12.00V output 10 +5Vsb(Standby) output
uF
11000 +12.00V output
uF capacitive load
uF
2200 +5.00V output 2200 +3.3V output
uF
350 +5Vsb(Standby) output
03
2.2.2 Output protection function
Nomina
Item
Unit MIN
MAX
l
Note
+5V A 33
+3.3 A
33
+5Vs A
5
Over Current
Protection -12V A 1.5
45 When overcurrent occurs, the protective circuit operates and the
45 power supply self-locks, with no
16 output at this time; when the fault is resolved and the power supply is restarted, the power supply returns to its normal output state. The power supply self-locks and there is no output at this time; when these
2.5 reasons are eliminated and the power supply is restarted, the power supply returns to the normal output state. (PSON# resets for at least 1 second; AC shuts down for at least 4 seconds)
+12V A
Follow by module psu
Short Circuit
/
/
/
/ automatically protect and lock except +12V
Protection
+12V V 13.5
15.5
Over Voltage +5V V 5.7 Protection +3.3 V 3.7
7
Lock mode
4.5
-12V V -13.5
-15.5
Over Temperature Yes 60
Protection
Turn off the main circuit, self-recovery, hysteresis is not less than 5, +5Vsb when not turned off
Note: When the rated output power of the equipped module is less than the output power of the back basket, the OPP/OCP of the module shall prevail. For +5V and +3.3V overvoltage protection tests, it is forbidden to use the reverse injection method of the DC input voltage to avoid burning the power supply.
04
2.2.3 Efficiency
Load 20% 50% 100%
+5V 5A 12.5A 25A
+3.3V 5A 12.5A 25A
+5Vsb 0.6A 1.5A 3A
+12V 17.86A 44.65A 89.3A
-12V 0.1A 0.25A 0.5A
EFF
>90% >94% >91%
2.3 Timing
Turn on
Description
Min Max Units
Tvout rise
Output voltage rise time for all main output.
3* 70* msec
Tsb_on_delay
Delay from AC being applied to 5Vsb being within regulation.
1500 msec
Delay from AC being applied to all
Tac_on_delay output voltage being within
2500 msec
regulation.
Tvout_holdup
Time all main output 12VI voltages stay within regulation after loss of AC.
13
msec
Tpwok_holdup
Delay from loss of AC to de-assertion of PWOK.
12
msec
Tpson_on_dela y
Delay from PSON active to output voltages within regulation limits.
5 400 msec
Tpson_pwok
Delay from PSON deactivate to PWOK being de-asserted.
50 msec
Delay from output voltage(12V) within
Tpwok_on regulation limits to PWOK asserted at 100 500 msec
turn on.
Delay from PWOK de-asserted to
Tpwok_off output voltages dropping out of
1
msec
regulation limits.
Duration of PWOK being in the de-
Tpwok_low asserted state during an off/on cycle 100
msec
using AC or the PSON signal.
Delay from 5Vsb being in regulation
Tsb_vout to main output being in regulation at 50 1000 msec
AC turn on.
T5Vsb_holdup
Time the 5Vsb output voltage stays within regulation after loss of AC.
70
msec
*Tvout_rise : The 5Vsb output rise time shall be 1ms to 25ms.
05
2.4 PWOK signal and PSON signal
2.4.1 The PWOK signal is a TTL signal. After powering on, when the DC output voltage of each channel reaches the minimum detection voltage, after a delay of 100-500mS, the PWOK signal is high level; when a DC output is lower than the minimum detection level, the PWOK signal is low level.
logic low level logic high level
TTL 0.8Vinput current 4mA mA
Between 2.4V and 3.5V, sourcing 200A
2.4.2 The PSON signal is a TTL signal, and the power switch is controlled through the PSON signal. When the PSON signal is low level, the power supply is turned on; when the PSON signal is high level, the power supply is turned off.
VIL, input low level voltage VIH, input high level voltage
Min. 0.0V 2.4V
Max. 0.4V 3.4V
06
2.5 Alert function
PSU module insert to the backplane when no power
Condition
Buzzer
When the power is off and the internal energy is released, -
Standby state (PS_OFF state)
-
Fault state (PS_ON state), without main output
Alert
PSU module insert to the backplane when power on
When the power is off and the internal energy is released, Standby state (PS_OFF state) Fault state (PS_ON state), without main output
-
Alert
Module working in good condition
/
1. The status of the indicator light refers to the indicator light of the power module. It is for reference only. The actual power module specification shall prevail;
2. It is normal for the buzzer to sound briefly when turning on or switching PSON;
3 PMbus
3.1 PMBus definition
Communication speed: maximum 100KHz, Single module information can be read through output terminal P18 and the following address.
MCU PMBus address 0xB0 0xB2
EEPROM FRU address 0xA0 0xA2
3.2 Data interface
PIN signal
1
SCL
2
SDA
3
SMB
4
GND
5
NC
Wire color green yellow orange black none
07
3.3 SMB Alert work status
Condition
Parallel or single module, in standby state (PS_OFF) Parallel or single module, in normal working state (PS_ON) When the single module or dual modules are in normal working condition (PS_ON), the AC input is cut off. Dual modules work normally in parallel (PS_ON), but the AC input of one module is disconnected. Single module or dual module AC normally only has SB (PS_ON), that is, in fault state
Overall machine level signal
high level high level low level
low level
low level
3.4 SMB alert logic level
Logic level low voltage,Isink=4mA Logic high low voltage,Isource=200A
MIN 0 2.4V
MAX 0.4V 3.5V
4.Environment
Item
Unit
MIN
NORMAL
MAX
Operating temperature
0
25
50
Storage temperature
-40
70
Storage humidity
%
5
95
Altitude
m
0
5000
Store altitude
m
0
15200
Heat dissipation method The power supply comes with air-cooling and ventilation mode (exhaust from DC terminal side to AC input side)
08
5 Electromagnetic compatibility
Item RE CE
SURGE
ESD
requirement Frequency30MHz1GHz Class A Frequency150KHz30MHz Class A AC input Differential mode±1KV Common mode±2KV contact discharge±6KV air discharge±8KV
Standard EN 55032 FCC part 15 EN 55032 FCC part 15
EN61000-4-5 EN 55024
EN61000-4-2 EN 55024
Note 230V@50Hz 120V@60Hz 230V@50Hz 120V@60Hz
6 Safety
6.1 Dielectric strength
Apply a gradually increasing voltage from 0V to 1500V between the AC line and the chassis, and then hold it for 1 minute. The insulation should not break down; if the current caused by the addition of the test voltage increases rapidly in an uncontrolled manner, that is, the insulation cannot limit the current. , it is considered that insulation breakdown has occurred; corona discharge or a single instantaneous flashover is not considered to be insulation breakdown.
6.2 Ground resistance valueÖ0.1(32A)
6.3 touch current When the input is 264V, the contact current is 3.5mA.
7 Reliability
When the environment is 25 and 100% load, the mean time between failures (MTBF) of the power supply is greater than 100,000 hours.
8 Dimension
82mm (W) x 102mm (H) x 239mm (D)
9 POWER SUPPLY CONNECTOR OVERUSE DEFINITION
09
DE
Definition einer Überlastung des Netzanschlusses
Définition de l'utilisation excessive du
FR
connecteur d'alimentation électrique
TH
KR
ES
Definición de uso excesivo del conector de la Fuente de alimentación
JP
IT
Definizione di uso eccessivo del connettore di alimentazione
CN
RU
TW
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